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秦岭—大巴山地区金属矿产成矿规律 总被引:9,自引:1,他引:9
秦岭—大巴山地区金属资源蕴藏丰富,成矿规律明显。剖析控矿条件,概括出优势金属资源的空间定位、成矿类型,归纳了成矿期,指明了小秦岭、熊耳山、伏牛山、汉(中)武(都)北(川)、凤(州)成(县)礼(县)、山(阳)柞(水)旬(阳)和商(南)洛(南)等七个成矿域,是查勘巨型或特大型矿产的地区。 相似文献
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基于小秦岭-熊耳山地区多金属矿床辉钼矿Re-Os模式年龄、矿物40Ar-39Ar年龄、高精度矿物和岩石Rb-Sr等时线测年数据,以及与成矿相关花岗岩的SHRIMP测年数据的分析和研究,认为小秦岭-熊耳山地区燕山期大规模成矿作用主要出现在140Ma和120 Ma两个时期,其中钼钨铅锌矿系列主要形成于早成矿期,金矿形成于晚成矿期.根据与这两个成矿期所对应的岩浆热事件,说明是两期岩浆活动的结果, 其所对应的地球动力学背景分别为构造体制大转换和岩石圈大规模拆沉作用下的伸展环境. 相似文献
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秦岭大陆碰撞金成矿机制与金矿带时空定位 总被引:7,自引:0,他引:7
通过分析秦岭巨型金矿带内353处岩金矿床的时空分布特征发现,带内矿化强弱变化有序,由NE向SW依次分出小秦岭-熊耳山强矿化带、北秦岭弱矿化带、中秦岭强矿化带、南秦岭弱矿化带和松潘-甘孜强矿化带5个亚带。它们的成矿时代始于印支期,经燕山期,终于喜马拉雅早期。其中小秦岭-熊耳山亚带主成矿期为燕山晚期,中秦岭亚带主成矿期为燕山早期,松潘-甘孜亚带主成矿期为燕山晚期至喜马拉雅早期。金矿带时空定位在于控矿构造带的时空定位。空间上,控矿构造带包容金矿带或基本一致;时间上,金矿带与控矿构造带基本同步或滞后。金矿带时空变化原因在于控矿构造带的构造迁移,从控矿构造带的主断面向两侧迁移,迁移速率0.78~3.5km/Ma。金矿带及其控矿构造带的形成和迁移原因在于大陆碰撞。大陆碰撞及其俯冲带下插构造位的加深,依次形成变质岩及变质成矿热液-改造系列花岗岩及气液成矿流体-同熔系列花岗岩及超临界成矿流体。不同构造位的成矿流体特征不同,形成不同矿床成因类型。成矿流体上升形式和构造空间不同,形成不同的矿化类型。 相似文献
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华北陆块南缘是我国重要的多金属成矿带之一,可划分为两个成矿集中区:小秦岭-熊耳山金成矿带和栾川陆缘凹陷钼、钨、铅、锌成矿带.在其演化过程中形成不同的成矿系统,与铅成矿带有关的成矿系统为中新元古代拉张构造体制被动陆缘成矿系统:MVT型铅锌成矿系列和Sedex型铅锌成矿系列;中生代陆内碰撞成矿系统:与岩浆岩有关的热液充填交代型铅锌成矿系列.与金成矿带有关的成矿系统为古元古代古陆核边缘成矿系统:小秦岭石英脉型金矿成矿系列;中新元古代拉张构造体制被动陆缘成矿系统:熊耳山蚀变岩型金矿成矿系列. 相似文献
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东秦岭内生金属成矿系统与成矿组合 总被引:2,自引:0,他引:2
根据东秦岭不同构造发展阶段的沉积建造和岩石组合,划分成矿系统与成矿组合如下:(1)前长城纪陆核活动性边缘沉积成矿系统:舞阳铁成矿组合,小秦岭金成矿组合;(2)中、新元古代被动大陆边缘成矿系统:熊耳山铜铅锌成矿组合,围山城金银成矿组合,秋树湾斑岩铜钼成矿组合;(4)古生代活动大陆边缘成矿系统:公馆汞锑成矿组合,银洞子银铅、大西沟菱铁矿-重晶石成矿组合;(5)中生代陆内碰撞造山成矿系统;燕山期中酸性小岩体钼钨铅锌金银成矿组合,改造热液型金银铅锑成矿组合。 相似文献
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本文通过总结秦岭地区金矿分布、成矿地质特征,将本区划分为3个成矿带和11个成矿集中区,最后探讨了金矿找矿方向。提出了“八五”期间区内的金矿找矿工作重点应放在小秦岭、熊耳山这两个老产金区,同时积极探索“岷礼”、迭部武都、安康地区低品位大型、超大型微细粒浸染型金矿。 相似文献
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根据东秦岭不同构造发展阶段的沉积建造和岩石组合,划分成矿系统与成矿组合如下:(1)前长城纪陆核活动性边缘沉积成矿系统:舞阳铁成矿组合,小秦岭金成矿组合;(2)中、新元古代被动大陆边缘成矿系统:熊耳山铜铅锌成矿组合,神洞沟喷流沉积锰铅成矿组合,维摩寺铅锌成矿组合;(3)早加里东期构造体制转换期成矿系统:刘山崖铜锌成矿组合,围山城金银成矿组合,秋树湾斑岩铜钼成矿组合;(4)古生代活动大陆边缘成矿系统:公馆汞锑成矿组合,银洞子银铅、大西沟菱铁矿-重晶石成矿组合;(5)中生代陆内碰撞造山成矿系统:燕山期中酸性小岩体钼钨铅锌金银成矿组合,改造热液型金银铅锑成矿组合. 相似文献
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Gilles Serge Odin 《Comptes Rendus Geoscience》2002,334(6):409-414
Lithostratigraphy, physicochemical stratigraphy, biostratigraphy, and geochronology of the 77–70 Ma old series bracketing the Campanian–Maastrichtian boundary have been investigated by 70 experts. For the first time, direct relationships between macro- and microfossils have been established, as well as direct and indirect relationships between chemo-physical and biostratigraphical tools. A combination of criteria for selecting the boundary level, duration estimates, uncertainties on durations and on the location of biohorizons have been considered; new chronostratigraphic units are proposed. The geological site at Tercis is accepted by the Commission on Stratigraphy as the international reference for the stratigraphy of the studied interval. To cite this article: G.S. Odin, C. R. Geoscience 334 (2002) 409–414. 相似文献
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Muriel Rocher Stéphane Baize Stéphane Jaillet Edward Marc Cushing Yannick Lozach Francis Lemeille 《Comptes Rendus Geoscience》2003,335(8):701-708
Calcite samples were extracted both from the rock matrix and the superficial coating of a karstified fault plane of an underground quarry, located in the eastern border of the Paris basin. The karstification is dated as Quaternary. Analysis of mechanical calcite twinning reveals that only the calcite matrix has also undergone a compression trending WNW that can be attributed to the Mio-Pliocene alpine collision. Both coating and matrix have undergone a strike-slip regime with σ1 roughly trending north–south, that could correspond to the regional present-day state of stress, a strike-slip compression rather trending NNW, modified by local phenomena. To cite this article: M. Rocher et al., C. R. Geoscience 335 (2003). 相似文献
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正20141756 Chen Ruige(Mathematical College,China University of Geosciences,Beijing100083,China);Zhou Xun Numerical Simulation of Groundwater Level Fluctuation in a Coastal Confined Aquifer with Sloping Initial Groundwater Level Induced by the Tide(Geological Bulletin of China,ISSN1671-2552,CN11-4648/P,32(7),2013,p.1099-1104,6 illus.,16 refs.) Key words:confined water,groundwater level 相似文献
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正20141408 Cai Jia(Institute of Geology,Chinese Academy of Geological Sciences,Beijing100037,China);Liu Fulai Petrogenesis and Metamorphic P-T Conditions of Garnet-Spinel-Biotitebearing Paragneiss in Danangou Area,Daqingshan-Wulashan Metamorphic Complex Belt(Acta Petrologica Sinica,ISSN1000-0569,CN11-1922/P,29(7), 相似文献
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正20142386An Guoying(China Aero Geophysical Survey and Remote Sensing Center for Land and Resources,Beijing 100083,China)Application of Satellite Remote Sensing in Regional Hydrogeological Investigation:Taking Cenozoic Strata in Wenquan Sheet(1∶250 000)of Karakoram Range as an Example(Geosci- 相似文献
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正20141016An Chengbang(Key Laboratory of Western China’s Environmental Systems,Ministry of Education,Lanzhou University,Lanzhou 730000,China);Zhao Yongtao Lake Records during the Last Glacial Maximum from Xinjiang,NW China and Their Climatic Impli- 相似文献
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正20141538 Cao Qing(School of Earth Sciences and Engineering,Xi’an Petroleum University,Xi’an 710065,China);Zhao Jingzhou Characteristics and Significance of Fluid Inclusions from Majiagou Formation,Yichuan Huangling Area,Ordos Basin(Advances in Earth Science,ISSN1001-8166,CN62-1091/P,28(7),2013,p.819-828,7 illus.,3 tables,43 refs.) 相似文献
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正20142002 Wei Hualing(Institute of Geophysical and Geochemical Exploration,Chinese Academy of Geological Sciences,Langfang065000,China);Zhou Guohua Element Content and Mineral Compositions in Different Sizes of Soil in Tongling Area,Anhui Province(Geological Bulletin of China,ISSN1671-2552,CN11-4648/P,32(11),2013,p.1861 相似文献
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正20141768 An Shaopeng(Institute of Rock and Soil Mechannics,Chinese Academy of Sciences,Wuhan 430071,China);Wei Lide Experimental Study on Mechanical Behavior of Xigeda Formation Siltstone and Structure Interface(Journal of Engineering Geology,ISSN1004-9665,CN11-3249/P,21(5),2013,p.702-708,9illus.,1 table,16 refs.) 相似文献